Flow diversion valve



ay31,1938. B WHALL- 2,118,858 FLOW DIVER'SION VALVE Filed May 25, 1937 2 Sheets-Sheet l y 1 3 B. G; NEWHALL 2 9 FLOW DIVERSION VALVE Filed May 25, 1937 2 Sheets-Sheet 2 atented May 31, 1938 FLOW mvnnsrou VALVE Benjamin G. Newliall, Forest Park, 111., asslgnor to Moionnier Bros. (30., acct-notation of Illi- Application May 25, 1931, Serial No.-l4d,708 2 Claims. (cl. art-20) The present invention relates to valves generally and more particularly to valves which require frequent disassembly forcleaningpurposes. Such valves are commonly used in places where milk and milk products are conveyed through pipes and all must be cleaned periodically to meet the requirements of the sanitary laws relating to such matters. But obviously the valves may be-of. service in handling other liquids or fluids. And the use of the new valve may be quite general and not restricted to special liquids. For

the purposes of the present disclosure the valve chosen is a so called flow diversion valve. In the use oi such valves, a flow is established in a given circuit and continued therein until a definite change inthe condition of the fluid or liquid is reached, whereupon the valve operates to change the direction of flow so as to divert the same into a new path. Some of the features of novelty in the present valve are not limitedto a fiow diversion valve while others are especially suited to such valves.

One object of the invention is to provide a valve of such-construction that thepipe connections may be readily removed and cleaned while the interior movable valve memher ,'which ,constitutes the valve propertmay be removed irom the body of the valve fora'lilre purpose after having its stem disconnected fromthe valve operating elements.

Another object is to provide novel means for draining the valve of liquid which should be removed irom the valve and its connections, because, due to the operation of the valve, the same is not inf proper condition to be passed on beyond the valve to the next apparatus. I

Another object is to so construct the drain valve by which the surplus liquid is drawn ofl, that it too may be readily separated from the main valve and divided into its various parts for the purpose of ready cleaning.

. Another object is to provide a. valve which shall be simple in construction, efllcient in operin connection with the accompanying drawings while the scope of the invention will'be particularly pointed out in the appended claims. v

In said drawings, Fig. 1 is a perspective view of a valve constructed and arranged in accord-. ance 'with thepresent invention. Fig. 2 is an elevation of the same showing portions broken detail.

which for convenience is shown in the drawings hold the ring in place when the nut' is screwed nut it.

away and in vertical sectional elevation. Fig. 3

is a central vertical section through the valve structure taken on a plane at right angles to that on which the section of Fig.- 2'is taken. Fig.

4 is a perspective view of an actuating ram form- 5 ing part of the structure of the drain valve. Fig. 5 is a perspective view of a guide member employed in directing the movement of the actuating rod of the drain valve. -And Fig. 6 is a diagram illustrat; g the way in which the valve 10 of the'preceding ghee may be connected up in a flow diversion system. oughout these views like characters refer to like parts.

u In brief, the valve comprises a body A, a main valve B, a main stem C, actuating mechanism D, 15 lower pipe connections E, lateral pipe connections F'and G, and the auxiliary drain: valve H. When the valve B is in its uppermost position; as the whatever flow therels must be by way of the connections? and G. Obviously, the direction or.

how may be varied in difierent systems. 25

Having in view the various parts of the valve v r andconnectlons and their relative arrangements, these various parts may now be considered in The body A includes a cylindrical portion to as arranged with its cylindrical ams vertical.

It is within this cylindrical portion it that valve B travels. The lower end of the cylindrical portion it is closed in part by a ring it which is removably secured in place. The ring it is provided with a centraLaperture of a size suited to the pipe l2 of the connections E. Around the pper edge of this aperture is'a'. beveled valve seat 03. This seat cooperates with the lower portion of the main valve B. The ring it is preferably held in place by a threaded clamping nut M, the same having an overhanging flange it "which cooperates with a shoulder upon the ring to firmly home upon the lower portion oi the cylinder it. As clearly shown, the outer surface of the portion l d is provided with a suitable thread it which cooperates with the thread on the interior oithe The upper portion of the body A takes the form of an elbow l l. In passing from the interior of the cylinder loto the interior of the elbow ll an inwardly extending flange or projection l8 is encountered. This flange surrounds a passage the pipe connections F. In this 'case the opening in the cylinder wall is surrounded by an annulan "flange 2|. It is within this flange that -the end of the pipe 22 is fitted.

In a somewhatsimilar way the open end of the elbow I1 is constructed so as to care for the pipe connections G. In this case the parts are secured together somewhat differently than in the connections F. Here an exterior thread 23 on a' tubular extension 24 cooperates th the interior threads on a nut 25 to hold the ipe 26 in place. In this instance a flange ring 21 is soldered or otherwise firmly secured to the end of the pipe 26. The flange on the ring 21 cooperates with the inwardly extending flange on the nut 25 to firmly seat the ring 21 against the end of the tubular portion 24. In this way the pipe connections G are formed; Obviously the connections at this point may be difierent.

That portion of the body A which lies above the elbow I1 is in the nature of an apertured plug 30. The main valve stem C passes through the aperture thus formed and is reciprocated therein to operate the main valve B. The body portion 39 is socketed at its upper end for the reception of a suitable packing ring 3|. The packing material employed may be varied as judgment may dictate but in the present instance it is shown as comprising a ring of rubber or like resilient material.

The exterior of the portion 30 is threaded and a nut v32 serves as a gland which when screwed home firmly holds the packing 3| in place and presses the same with the stem C. y

In this instance the portion 30 of the valve proper pressure against body also receives the apertured end 33 of the guide member 34, shown'particularly in Fig. 5. A nut 35 overlies the ring 33 and presses it down against the upper face of the central portion of a yoke '38 which in turn bears upon "a suitable annular shoulder 38 formed upon the body portion 30. By screwing the nut 35 down tight upon the ring 33, the guide member 34 is firmly held in place. Not only is this so but the yoke 36 is also secured in proper relation to the body of the valve. If desired a: washer 31 may be positioned between the nuts 32 and 35. Considerable variations in details may be had in this. packing ring and yoke supporting construction without departing from the scope of the: invention.

The valve B may next be considered. It comprises four wings 40 which extend outwardfrom the axis of the valve. These wings hear at their outer edges against the interior surface of the cylindrical portion ID of the body A. At the structure is such that when the valve face 4| engages the seat l9, as shownin Fig. 3, the passage between the'connections F- and G is closed. At

the same time that the valve face 4| engages the valve seat IS, the valve face 42 is out of engagement with the seat l3 and some distan e @91 1 v which is similar to that provided by the ring II and the lower edge of the flange is beveled so as it. This provides a communicating passage between the pipe connections E and F. The wings 40 are preferably cut away near their centers as indicated at 45, and they extend at their outer extremities some little distance beyond the peripheries of the valve engaging faces 4| and 42. As a result of this construction, the passage between the connections E and F or between F and G provides amplecross sectional areas for the stream of liquid passing through the valve. The valve B is secured to the lower end of the stem C in any suitable way. As shown, the upper end of the valve B is providedwith a threaded socket into which the lowenend of the stern C is threaded to connect the parts together. The valve B is moved to and fro by the valve stem C. As clearly shown, the stem C is axially alined with the valve B and this alinement agrees with the axis of the cylindrical portion iii of the body A.

As before pointed out, the valve stem C extends through the axially alined aperture in the portion 30 of the body A. As-also previously pointed out. the gland 32 is pressed down upon the packing 3| only with sufficient force to maintain a tight joint around the stem without interfering with the reciprocations of the latter'which are necessary for the operation of the valve B.

Obviously, the valve stem C may. be reciprocated in different ways. In some instances it may be sumcient to reciprocate the same by hand. In other instances it may be desirable to reciprocate it by power actuated mechanism. It is the latter method that is illustrated in the present case. The actuating mechanism D includes several parts. Among these is a supplemental stem 49 which is in vertical alinement with the main stem C. When the parts are assembled and in readiness for operation, the stems C and 49 are coupled together by a coupling sleeve 50. As clearly shown, the upper end of the stem C is of practically the same diameter as the interior surface of the greater portion of the sleeve 50. This means that the sleeve will readily slip over the end of the stem C. The stem 49 has at its lower end a head 5| which has the same diameter as the upper end of the stem C. This head 5| therefore, moves freely within the sleeve 50. The up- 'per end of the sleeve 50 is provided with an in wardly projecting flange 52. This flange cooperates with a shoulder upon the adjacent end of the head 5| and is thus limited in its downward movement'. In ot er words, the sleeve 50 may be moved up and down on the stem 49 through a limited range of movement. Its downward movetends'through and fits snugly in an aperture in the stem 49. The head 5| of the stem 49 and the upper end of the stem C have interlocking portions 58 and 51. These interlocking portions are such that the two stems can be separated from each other only by lateral movement. Such movement is prevented by the sleeve 50 when, the parts are in normal assembled relation. In 0rder .to unc'ouple the stems, it is necessary to force the sleeve 50 upward against the compression ofthe spring 53 until said sleeve occupies a position with its lower end clear of the uppers end of the stem C. When in this position, the

two stems may be moved laterally a suflicient enacts touncouple' them. The fit ofthe stems and their resiliency is suiilcient to permit this. Obviously, the engaging portions 55 and 51 upon the stems l9 and C may be variously formed. The

merely typical.

Turning again to the actuating mechanism D, it will be noted that the yoke 36 terminates in two upstanding arms I. To these are secured two extension pieces 6!. nuts 63, cooperate in holding the pieces 6| in place upon the yoke arms 60. In turn, the pieces 6! carry at their upper ends the cap 6|. its lower'outer edge so as to fit over a similar tapered surface interlocking suriacesillustrated are therefore formed at the upper ends of the pieces ii. The j cap '64 must be firmly secured to these extension pieces in any suitable way. soldered, welded or otherwise secured. The connection must be a strong one as the strain produced by the enclosed bellows and springs must be taken up by the connected parts.

The bellows within the cap M is made up of two metal sections H which are fitted together with an inner circular joint 12 and comprise outer folded portions which are separable to provide the bellows action. The upper wall of the upper section is secured to a fixed head I3 and the lower wall of the-lower section is similarly secured to a movable head ii. The fixed A head has astem 15 which extends through an aperture in thercenter oi the cap M and is held in place by a nut '35 which has threaded engagement with the threaded exterior of the stem. The head 'ii, the stem iii, and the adjacentwall of the bellows section ii 'are providedwith an aperture lie Through this aperture compressed air or the like may be sipplied to the interior of the bellows sections.

The upper and lower'walls oi thebellows sections may be secured to the heads it and M in any desired way. Thus, they may be soldered or welded- -Obviously, the stem it may be connected by suitable tubing to a source oi supply of air under pressure or the like. Such supply may be regulated by any suitable means either automatic or manual. Ordinarily, automatic control of some sort is employed. The head M is located at the upper end of the auzdllary st m it], as clearly shown. A preierredlconstruc on is one in which the upper end of the stem is is threaded into a suitable threaded opening in the shank id of head It. Obviously, when air under pressure is admitted to the interior or the bellows the head ii will be moved away from the head id and the result will be that the stems.

tit and C will be moved downward. When the pressure is suflicient, the; movement will be such as to completely open the valve iace M and completely close the valve face it. The bellows expansion is counteracted by a pair of coiled com-' pression springs'ildwhich fit over hubs hi loacted on the under side of the headid on opposite sides of its central axis. The opposite ends of the springs rest in sockets it formed in the upper face oi. a cross bar M which is 'supported at its ends upon the upper ends of the arms W of the yoke 38. With this construction it will be apparent that as soonas the pressure within the bellows is relieved the springs or willoperate to force the head Iii upward.

The result of such movement will be to carry the valve B upward so 'as to open the same at Suitable bolts 52' and The parts may be clamping nut M which sent Band close it at ,seat ii). The cross bar 60 if desired.

Considering now the auxiliary valve H, by which the main valve is drained under certain conditions of operation, it may be noted that the '5 body of the main'valve is provided with a projection 86 in which there is a chamber 8'1. having a port-88 which opens into that chamber of the main valve which lies just above the seat It. Indeed, it may be said that the port 88 opens at 10 the seat l9. Within the chamber 81 is a coiled spring 89 which bears at one end against a shoulder 9!! formed adjacent to the port 88, and at its other end'against a metal ball M which cooperates with a (seat drain passage leading from the port 88. The seat 92 is formed at one end of a tubular member93. This member is held in place by a is threaded onto the exterior of the projection 86 and has a flange 20 which cooperates with a flange upon the member 93 to hold the member 93 up tight against ber 95 is open to the interior or the main valve 30 abovejthe seat i9 whenever the valve 9!! is open and is cut oil from such communication whenever the vhlve all is closed. in this instance, the bore 95 is directly open to atmosphere through the port 96. By reason of thearrange- 35 ment described, it therefore follows that the ball valve dll controls a passage to atmosphere from the chamber of the main valve above the seat id at all times. When the valve is open the chamber will be drained; and when the valve .40 is closed there will be no drain connection to the chamber but the latter will be otherwise used. All liquid in the chamber above" the valve B can be thus drained from the main valve.

Obviously the operate this valve by hand. In other cases automatic operation will be desirable. In the present instance the valve Si is shown as operated automatically in response to movements of the main 50 valve B. To bring about this operation, the interior 95 of the member 93 is fitted with a ram M. This ram has a portion 99 of large diameter which exactly fits within the bore 95 and it also has a pinlik'e projection operation to pass through the opening of the valve adjacent to the seat at and press upon the ball valve 9i tomove it in opposition to the coiled compression spring it. The spring is used to I close the valve and ram 99 work in opposition to the spring to open the valve.

The requisite movement for actuating the ram. 98 is obtained from a reciprocating rod or mem-' ber ml which moves with the main valve stem C. 65 As clearly shown, the member fldi may occupy two extreme positions, one being the upper iull line position of Fig. 3 and the other the lower dash line position oi. the same figure. When the rod i di occupies said full line position, it acts '10 through link W2 to'force the ram it against the ball M to open the valve. When the member ecu occupies said dash line position, then it aci-s 92 to open and close the 15 v valve ti may be operated in 45 are which is adapted in 55' the pin ltd and associated 6Q movement of the member IOI with the main stem C and the associated stem 40, the latter carries a laterally projecting arm I03. This arm 5 is secured to the stem 49 by associated nuts I04 and I05 threaded upon the stem and engaging opposite sides of the arm I03. The outer end of the latter arm is provided with an opening for the passage of the upper end ofthe member The latter is threaded at its upper end and passes through the opening in the end of the arm. The parts are held'in place by cooperating nuts I06 and I! threaded upon the rod IN.

and bearing upon opposite sides of the arm I03.

15 The rod I M is guided in its up and down movement by the guide member 34 previously described as supported upon the body portion 30. As clearly shown, the outer end of the guide member 34 has an apertured boss I00. The rod IOI extends 20 through the aperture in said boss and is free to move up and down therein. Thus, the movements of the member IOI are maintained in proper alignment.

Obviously, in making up the pipe connections 25 E, F and G, various arrangements of pipes and coupling members may be resorted to. Those illustrated suggest possibilities along this line. In the case of the connections E the pipe I2 abuts against a shoulder in the ring II and solder I09 fills in the space between the -end ofthe pipe and the adjacent inclined wall of the opening. The same construction is employed in connecting the pipe 22 to the flange extension of the pipe connections F. In the latter case, solder 35 II 0 fills the space surrounding the end of the 40 in place. In this instance pipe 22. Again, returning to the connections E, it will be seen that the pipe I2 is provided with a threaded ring I II. A clamping nut II2 cooperates with the ring II I to secure the pipe H3 pipe II3 requires the presence of ring II4 similar to the ring 2'! previously described in connection with the description of the pipe connections G. It should be noted too that the pipe 22 of connections F is 5 provided at its outer end with an exteriorly threaded ring H6 like the ring II I of connections E.

It will be observed that, in the case of these various pipe connections, the couplings are such that the pipes may be readily disconnected from each other or from the valve body A in order -that the same may be readily and efliciently cleaned. In an instance where the pipe is permanently connected to the valve body, as in the 55 case of the pipe connections F, the pipe thus connected will be ordinarily of short length or otherwise constructed so that full access may be had to all parts, especially the interior of the casing I0, for cleaning purposes.

It will also be apparent from all that has been said,.that the removal of the valve seat ring II will leave the cylindrical portion I0 of body A entirely open. When thus opened up, the valve B may be readily removed fromv the valve body.

65 This will be accomplished by slipping back the 75' the advantage of the auxiliary valve for draincoupling sleeve.50 and separating the main and auxiliary valve stems and then simply withdrawing the valve B and stemC from the body A. Obviously, too, the clamping nut 04 may be re- 70 moved from the lateral projection 86 and the variousparts oi the drain valve mechanism H may be readily removed for cleaning purposes. In order to give a fuller understanding of the use of a flow diversion valve and to make clear into closed position. In order to bring about ing out the main valve and connections, a diais found in Fig. 6. As there shown, the valve I have been describing is designated V and the pipe connections E, F and G are indicated'by the corresponding letters. In this diagram,' an installation for heating a liquid in a given circuit, and then, when it has reached a certain temperature, diverting it to other apparatus is indicated. The liquid supply comes. through pipe II'I controlled by a valve H8. The liquid passes intoa circuit which is initially established by having the valve V in the position shown in Fig. 3. This circuit may be traced from the point H9, where the liquid enters, through pipe I20, pump I2I, pipe I 22, heater I23 and pipe I24 to the connection F, thence through valve V and out through connection E back to the point I I9. A thermometer I26 is connected to the line I24. Normally the liquid under treatment. is passed into the circuit from the pipe 'I I 1, under-the control of the valve H8. The pump I2I operates to keep the liquid traveling around the traced circuit. As it passes through the heater I23, it takes up heat. The circuitous travel is continued until the thermometer I26 shows that the liquid has been brought to the desired temperature for diversion to other apparatus. When this point is reached, the valve V is operated to take the position alternative to that shown in Fig. 3, namely, the position in which the valve face 42 is closed upon seat I3 and the valve face is open. At this time the liquid, which has been traveling around the circuit, obviously disoontinues travel over such path since it cannot now leave the valve by the connection E but must leave by way of the connection G. The continued action. of the pump forces the properly heated liquid on through the connection. G to the apparatus intended. Now as the liquid is being thus forwarded through connection G new liquid will come into the system through supply pipe Ill and the temperature of the liquid within the circuit will be gradually lowered until finally it will be necessary to cut off theconnection G and again establish the previously traced circuitthrough connections F and E. This is accomplished by an operation of the valve which brings it into the position shown in Fig. 3. Now, it will be noted that 'when this 4 return of the valve to the position of Fig. 3 occurs. the drain valve H will be opened and any liquid which may be in the interior of the valve above the seat I9 or in the connection leading therefrom through the pipe connection G, will be drained ofi through the port 96. This is a matter of considerable importance where greatnicety of temperature control is required. Although these valve operations have been set forth merely as accomplished as if done by hand, yet.

tanc. By draining :off the chamber and connections leading to apparatus which must be so delicately handled, great nicety of control and good results in operation are obtainable. This is especially true in the flash pasteurization of milk in connection with the development of which the present valve has. been devised and developed;

- a variety of circumstances,

In constructing the valve disclosed, all the parts except where otherwise indicated are composed of metal. And where milk and milk products are to be handled, the metal of all those parts which actually engage/the milk are composed of some metal especially suited to use with milk. Such metals are stainless steel, stainless iron and the like; there being several metals of this kind on the market under difierent trade names.

It should also be pointed out that all the connections E, F, G and the like are such that the valve interior is devoid of screw threads. In other words, I have produced a valve which has a threadless interior. This makes the same especially useful because so easily cleaned. when disassembled all the parts may be thoroughly cleaned. The interior walls of the main valve casing are smooth, well rounded, and entirely free from crevices, there being no interior screw threads or the like, and consequently they lend themselves readily to all sanitary requirements. The provision of a threadless interior is of prime importance and a' valuable feature of my invention.

The illustration furnished by the diagram is merely suggestive of one use to which the valve may be put. Obviously, it may be used in quite and obviously, too, there may be a number of alterations and modiilcations introduced into the specific structure illustrated without departing from the spirit and scope of the invention. It is therefore aimed to cover by the terms of the appended claims all these uses and alterations and modifications which rightly come within the scope of the invention. s I r I claim:-

1. A valve structure including a body, suitable openings and passages therein for the flow of liquid therethrough, readily removable sanitary pipe connections to said body cooperating with said openings and passages in said flow, said openings and passages including a cylindrical chamber, valve seats formed at the opposite ends of said chamber, the seat at the outer end of said chamber being removable from said body to leave a removal opening having the full width of said chamber, a reciprocating valve member operative in said chamber, said member having guiding wings and two valve faces, said wings operating in engagement with the cylindrical wall of said chamber to insure axial guidance of said valve member, said valve faces being operative to alternately engage said seats respectively as said member is reciprocated, said valve member when in one seat-engaging position directing said and when in the other flow of liquid in one path seat-engaging position directing said flow in another path through said body openings and passages, a main stem for said valve secured thereto at one drical chamber out body, a supplemental stem outside of said body and extending axially of said main stem and of the same, actuating mechanism for reciprocating said supplemental stem and said main stem when said stems are coupled together, a coupling member for temporarily connecting said stems togetherend to end for movement under said actuating mechanism, and removable packing means forjproviding s.

end and extending axiallyof said cylinthrough an opening in said tight joint around said main stem where it emerges from said body, said valve member being separable from said main stem and removable from said body through said removal opening, provided as aforesaid by the removal of said outer valve seat, and said main stem being sepa-' rable from said supplemental stem and readily removable from said body, whereby said liquid openings and passages in said body are made accessible so that they may be thoroughly scrubbed and cleaned and rendered sanitary for the handling of edible liquids.

2.'A valve structure including a body, suitable openings and passages therein for the flow of liquid therethrough, readily removable sanitary pipe connections to said body cooperating with said openings and passages in said how, one of said pipe connections extending approximately horizontally, another approximately vertically, the latter including a cylindrical chamber having a substantially vertical axis, valve seats formed near the upper and cylindrical chamber, the upper seat lying in an upper valve seat plane just below the inner end of said approximately horizontal pipe connection and passage, the lowest point in said latter connection and passage being adjacent to said upper valve seat, the lower valve seat being readily removable from said body to leave a full-width removal opening at the lower end of said cylindrical chamber, a reciprocating valve member said memoperatively positioned in said chamber, her having guiding wings and two"valve faces, said wings operating in engagement with the cylinder wall of said chamber to insure axial guidance of said valve member, and said valve faces cooperating with said seats to vary the path of flow of the liquid throughsaid body, stem for said valve extending through an opening in said body and being removably connected to said valve, said valve and stem being both removable from said body through said removal opening at the lower end of said cylindrical chamber, means outside of said body for reciprocating said stem and attached valve, the latter in said .cylindrlcal chamber, said body having a cylindrivcal drain passage opposite, and accessible for lower ends of said amain' cleaning through, said substantially horizontally disposed fluid passage, said cylindrical drain passage terminating at its inner end practically in said upper valve seat plane, a drain valve in said cylindrical drain passage, a passage normally holding said drain valve closed, a removable tube securedto said body and forming an extensional said drain passage, means in said tube for actuating said valve in cooperation with said spring, and mechanical connections between the main stem actuating means outside of said body whereby vertical movements of said mainstem actuating means will produce corresponding horizontal movements of the actuating means in said removable tube to drain the horicoiled spring in said zontal passage and connections to a point outside BENJAMIN G. 

